Antimicrobial Composition

a technology of antimicrobial composition and composition, which is applied in the field of antimicrobial composition, can solve the problems of constant and serious threat to human health, loss of about one-quarter of the word's food supply, and increase in the number of food poisoning in most countries

Active Publication Date: 2007-11-15
DSM IP ASSETS BV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0029] According to another preferred embodiment, the anti-microbial composition of the invention comprising natamycin and nisin has a pH ranging from pH 2 to pH 7.0, more preferably from 3 to 5. According to another preferred embodiment, the anti-microbial composition of the invention further comprises water and / or salt and / or any component selected from the group consisting of a solvent, a surfactant, a carrier, a food acid, a thickener such as xanthan, any other food grade anti-microbial compound. Preferred solvents, surfactants and carrier are already described in WO 95 / 08918. Preferred thickeners were described in U.S. Pat. No. 5,962,510 and U.S. Pat. No. 5,552,151. Preferred food acids such as an organic acidic anti-fungal agent and / or any additional acid are described in EP 608 944 B1. The content of the patents and patent applications cited in this paragraph is fully incorporated by reference in this context.
[0030] According to a second aspect of the invention, there is provided a product, such as a food product comprising an anti-microbial composition including natamycin and nisin.
[0031] According to a first preferred embodiment, the product is a water-containing product such as a food product, which comprises an anti-microbial composition including natamycin and nisin, whereby at least 90% (w / v) of natamycin is dissolved and / or less than 10% (w / v) of natamycin is present in solid form. Preferably, at least 95% (w / v) of natamycin is dissolved and / or less than 5% (w / v) of natamycin is present in solid form. More preferably, at least 97% (w / v) of natamycin is dissolved and / or less than 3% (w / v) of natamycin is present in solid form. Most preferably, almost all natamycin is dissolved and almost no natamycin is present in solid form.
[0032] Preferably, natamycin is present in the product in an amount of 1 to 20 ppm based on the water content of the product, more preferably natamycin is present in an amount ranged between 0.01 and 10 ppm. According to another preferred embodiment, the product comprises 0.25 to 20 ppm of nisin, more preferably nisin is present in an amount ranged between 0.0001 and 1 ppm.
[0033] According to a second preferred embodiment, natamycin and nisin are present at the surface of the product. Preferably, natamycin is present in an amount ranged between about 0.01 and 10 ppm. Preferably natamycin is present in an amount ranged between about 0.05 and 7 ppm, even more preferably about 0.1 and 5 ppm and most preferably about 0.5 ppm and 4 ppm. According to another preferred embodiment, nisin is present in an amount ranged between about 0.0001 and 1 ppm, more preferably about 0.0005 and 0.75 ppm, even more preferably about 0.001 and 0.5 ppm, even more preferably about 0.005 and 0.5 ppm and most preferably about 0.007 and 0.4 ppm.
[0034] According to a third aspect of the invention, there is provided the use of natamycin to obtain a product, such as a food product comprising an anti-microbial composition including natamycin and nisin.

Problems solved by technology

It has been estimated that about one quarter of the word's food supply is lost as a result of microbial spoilage and food-borne microbial infections represent a constant and serious threat to human health.
Despite substantial improvement in the technology and hygiene, food products may be exposed to spoilage and pathogenic bacteria in the food-handling environment and the number of food poisoning is still increasing in most of the countries.
Fungal spoilage can lead to serious economic losses.
Several food products e.g. agricultural products, dairy and meat products, fruits and vegetables and derived products, bakery products and cosmetics are very susceptible to fungal growth.
Spoilage by fungi does not only affect the quality of the product, but also represents a health risk.
Some mycotoxins are extremely dangerous as they can cause lethal diseases.
Food preservation techniques, e.g. heat processing, freezing, ultrasound, irradiation, and modified atmosphere packaging, significantly reduce microbial load but of particular concern is the evidence that processed foods are being contaminated with microorganisms following processing and prior to packaging.
Especially food products in the 2.0 to 7.0 pH range are known to be susceptible to microbial spoilage by yeast, mould, acid tolerant bacteria and / or mesophilic or thermophilic spore forming and non-spore forming bacteria.
Since food consumption may occur without reheating the processed foods to sufficient temperatures for sufficient time, there is a risk of food poisoning or food spoilage.
Furthermore, the recent trend for minimally processed foods with the intrinsic nutritional and sensory qualities of raw and fresh foods has raised a new safety risk.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

Natamycin Stability in Cottage Cheese

[0039] This example describes the stability of low natamycin concentration in cottage cheese containing nisin versus a lower stability in water with similar pH.

[0040] Cottage cheese was prepared following the standard procedure for cottage cheese making. The dry curd was obtained by addition of a starter culture to pasteurized skim milk. After acidification till pH 4.4 the curd was pasteurized and rinsed with water. The dry curd was mixed with the dressing at the ratio 66% curd and 44% dressing. Before mixing the curd and the dressing, the preservatives Delvocid® and Delvoplus® were added to the dressing. The preservative concentrations in the end products were 2.5 and 5 ppm of natamycin (5 and 10 ppm of Delvocid®) and 1.25 and 2.5 ppm of nisin (50 and 100 ppm of Delvoplus®). The moisture content of cottage cheese (dry curd mixed with the dressing) was 82%.

[0041] The procedure described in the International IDF (International Dairy Federation)...

example 2

Antifungal Activity of Low Natamycin Concentration in Cottage Cheese Containing Nisin

[0042] This example describes the antifungal activity of low natamycin concentration (2.5 and 5 ppm) in cottage cheese, in presence of nisin. Cottage cheese was prepared as described above. After adding the dressing to the dry curd, the cottage cheese was inoculated with yeasts and fungal cells, Kluyveromyces marxianus CBS 1557 and Penicillium roqueforti CBS 304.97, respectively. Following the artificial contamination, natamycin and / or nisin was added to the cottage cheese at two different concentrations, 2.5 and 5 ppm for natamycin and 1.25 and 2.50 ppm for nisin. The antifungal activity of natamycin against the yeast and the mould cells was evaluated after 3 and 6 weeks of incubation at 4° C. through the enumeration of the viable cells in the inoculated samples, in presence or not of preservatives. The number of viable yeast of fungal cells was also determined in a negative sample, non inoculated...

example 3

Antibacterial Activity of Nisin in Cottage Cheese Containing Low Natamycin Concentration

[0044] This example describes the antibacterial activity of nisin (1.25 and 2.5 ppm) in cottage cheese, in presence of low natamycin concentration. Cottage cheese was prepared as described above. After adding the dressing to the dry curd, the cottage cheese was inoculated with yeasts, fungal cells and cells of Listeria innocua LM35. Following the artificial contamination, the cottage cheese was added with two nisin concentrations 1.25 and 2.5 ppm and / or in combination with natamycin at the concentration 2.5 or 5 ppm. The antibacterial activity of nisin against L. innocua was evaluated after 3 and 6 weeks of incubation at 4° C. through the enumeration of the viable cells in the inoculated samples, in presence or not of preservatives. The number of viable bacterial cells was also determined in a negative sample, non inoculated cottage cheese without preservatives and in a positive control, sample ...

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PUM

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Abstract

The present invention describes a process to preserve a water-containing product such as a foodstuff, which comprises adding natamycin and nisin to the product, whereby at least 90% (w/v) of natamycin is dissolved and/or less than 10% (w/v) of natamycin is present in crystal form.

Description

FIELD OF THE INVENTION [0001] The present invention discloses a method to prevent or delay microbial growth in or on foodstuffs, agricultural products, pharmaceutical products and cosmetics. More specifically the method comprises using as an ingredient or applying to a food surface an anti-microbial composition including natamycin as anti-fungal agent and nisin as anti-bacterial agent. BACKGROUND OF THE INVENTION [0002] The need for improved food preservation methods is great. It has been estimated that about one quarter of the word's food supply is lost as a result of microbial spoilage and food-borne microbial infections represent a constant and serious threat to human health. [0003] Several bacterial species that may contaminate and grow in foodstuffs and crops are pathogenic or produce toxins and cause a range of food-poisoning diseases. Despite substantial improvement in the technology and hygiene, food products may be exposed to spoilage and pathogenic bacteria in the food-han...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A23L3/34A23L1/48A23L35/00
CPCA23B4/22A01N43/90A23L3/34635A23L3/3463
Inventor DUTREUX, NICOLE LILIANEHANN DE, BEN RUDOLFSTARK, JACOBUS
Owner DSM IP ASSETS BV
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